Angelica Sifuentes scite author profile

Sphingolipids have garnered attention for their role in insulin resistance and lipotoxic cell death. Aberrant accumulation of ceramides correlates with hepatic insulin resistance and steatosis. To further investigate the tissue-specific effects of local changes in ceramidase activity, we have developed transgenic mice inducibly expressing acid ceramidase, to trigger the deacylation of ceramides. This represents the first inducible genetic model that acutely manipulates ceramides in adult mouse tissues. Hepatic overexpression of acid ceramidase prevents hepatic steatosis and prompts improvements in insulin action in liver and adipose tissue. Conversely, overexpression of acid ceramidase within adipose tissue prevents hepatic steatosis and insulin resistance. Induction of ceramidase activity in either tissue promotes a lowering of hepatic ceramides and reduced activation of the ceramide-activated protein kinase C isoform PKC-zeta. These observations suggest the existence of a rapidly acting "crosstalk" between liver and adipose tissue sphingolipids, critically regulating glucose metabolism and hepatic lipid uptake.

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Regulation of glucose and lipid homeostasis by adiponectin: Effects on hepatocytes, pancreatic β cells and adipocytes

Tao

Sifuentes

Holland

2014

Best Practice & Research Clinical Endocrinology & Metab

119

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Adiponectin has received considerable attention for its potential anti-diabetic actions. The adipokine exerts control of glucose and lipid homeostasis via critical effects within the liver, adipose, and pancreas. By stimulating adipogenesis, opposing inflammation, and influencing rates of lipid oxidation and lipolysis, adiponectin critically governs lipid spillover into non-adipose tissues. Ceramide, a cytotoxic and insulin desensitizing lipid metabolite formed when peripheral tissues are exposed to excessive lipid deposition, is potently opposed by adiponectin. Via adiponectin receptors, AdipoR1 and AdipoR2, adiponectin stimulates the deacylation of ceramide- yielding sphingosine for conversion to sphingosine 1-phosphate (S1P) by sphingosine kinase. The resulting conversion from ceramide to S1P promotes survival of functional beta cell mass, allowing for insulin production to meet insulin demands. Alleviation of ceramide burden on the liver allows for improvements in hepatic insulin action. Here, we summarize how adiponectin-induced changes in these tissues lead to improvements in glucose metabolism, highlighting the sphingolipid signaling mechanisms linking adiponectin to each action.

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Angelica Sifuentes

Targeted Induction of Ceramide Degradation Leads to Improved Systemic Metabolism and Reduced Hepatic Steatosis

Regulation of glucose and lipid homeostasis by adiponectin: Effects on hepatocytes, pancreatic β cells and adipocytes

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